Network Working Group                              Thomas D. Nadeau, Ed.
Internet Draft                                       Cisco Systems, Inc.
Proposed Status: Standards Track
Expires: December 2005                                Adrian Farrel, Ed.
                                                      Old Dog Consulting

                                                               June 2005

         Generalized Multiprotocol Label Switching (GMPLS)
      Label Switching Router (LSR) Management Information Base

              draft-ietf-ccamp-gmpls-lsr-mib-08.txt


Status of this Memo

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Abstract

   This memo defines a portion of the Management Information Base (MIB)
   for use with network management protocols in the Internet community.
   In particular, it describes managed objects to configure and/or
   monitor a Generalized Multiprotocol Label Switching (GMPLS) Label
   Switching Router (LSR).










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Table of Contents
   1. Introduction ..................................... 2
   1.1. Migration Strategy ....................... ..... 2
   2. Terminology ...................................... 3
   3. The SNMP Management Framework .................... 3
   4. Outline .......................................... 3
   4.1. Summary of the GMPLS LSR MIB Module ............ 4
   4.1.1 Summary of the GMPLS LSR MIB Module ........... 4
   4.1.2 Summary of the GMPLS Label MIB Module ......... 5
   5. Bidirectional LSPs ............................... 5
   6. Example of LSP Setup ............................. 5
   7. GMPLS Label Switching Router MIB Definitions ..... 9
   8. GMPLS Label MIB Definitions ..................... 20
   9. Security Considerations ......................... 35
   10. Acknowledgments ................................ 36
   11. IANA Considerations ............................ 36
   11.1. IANA Considerations for GMPLS-LSR-STD-MIB .... 36
   11.2. IANA Considerations FOR GMPLS-LABEL-STD-MIB .. 36
   12. References ..................................... 37
   12.1. Normative References ......................... 37
   12.2. Informational References ..................... 38
   13. Authors' Addresses ............................. 39
   14. Intellectual Property Notice ................... 40
   15. Full Copyright Statement ....................... 40

1. Introduction

   This memo defines a portion of the Management Information Base (MIB)
   for use with network management protocols in the Internet community.
   In particular, it describes managed objects for modeling a
   Generalized Multiprotocol Label Switching (GMPLS) [RFC3945] Label
   Switching Router (LSR).

   Comments should be made directly to the CCAMP mailing list at
   ccamp@ops.ietf.org.

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED",  "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in BCP 14, RFC 2119,
   reference [RFC2119].

1.1. Migration Strategy

   There are two MIB modules in this document. The GMPLS LSR MIB module
   extends the LSR MIB module defined for use with MPLS [RFC3813]. The
   only changes made are additions for support of GMPLS or changes that
   are necessary to support the increased complexity of a GMPLS system.
   The GMPLS Label MIB module may be referenced using a row pointer from
   objects within the LSR MIB module.



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   The companion document modeling and managing GMPLS based traffic
   engineering [GMPLSTEMIB] extends the MPLS TE MIB module [RFC3812]
   with the same intentions.

   Textual conventions and OBJECT-IDENTIFIERS are defined in
   [GMPLSTCMIB] which extends the set of textual conventions originally
   defined in [RFC3811].

2. Terminology

   This document uses terminology from the document describing the MPLS
   architecture [RFC3031] and the GMPLS architecture [RFC3945].

   A label switched path (LSP) is modeled as a connection consisting of
   one or more incoming segments (in-segments) and/or one or more
   outgoing segments (out-segments) at an LSR. The association or
   interconnection of the in-segments and out-segments is accomplished
   by using a cross-connect. We use the terminology "connection" and
   "LSP" interchangeably where the meaning is clear from the context.

   in-segment     This is analogous to a GMPLS label on an interface.
   out-segment    This is analogous to a GMPLS label on an interface.
   cross-connect  This describes the conceptual connection between a
                  set of in-segments and out-segments. Note that either
                  set may be empty; for example, a cross-connect may
                  connect only out-segments together with no in-segments
                  in the case where an LSP originates on an LSR.

3. The SNMP Management Framework

   For a detailed overview of the documents that describe the current
   Internet-Standard Management Framework, please refer to section 7 of
   RFC 3410 [RFC3410].

   Managed objects are accessed via a virtual information store, termed
   the Management Information Base or MIB. MIB objects are generally
   accessed through the Simple Network Management Protocol (SNMP).
   Objects in the MIB are defined using the mechanisms defined in the
   Structure of Management Information (SMI). This memo specifies a MIB
   module that is compliant to the SMIv2, which is described in STD 58,
   RFC 2578 [RFC2578], STD 58, RFC 2579 [RFC2579] and STD 58, RFC 2580
   [RFC2580].

4. Outline

   Configuring statically provisioned GMPLS LSPs through an LSR involves
   the following steps:

   -  Configuring an interface using the MPLS LSR MIB module.

   -  Enabling GMPLS on GMPLS capable interfaces using this MIB module.

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   -  Configuring in and out-segments using the MPLS LSR MIB module.

   -  Configuring GMPLS extensions to the in-segments and out-segments
      using this MIB module.

   -  Setting up the cross-connect table in the MPLS LSR MIB module to
      associate segments and/or to indicate connection origination and
      termination.

   -  Optionally setting up labels in the label table in this MIB module
      if the textual convention MplsLabel is not capable of holding the
      required label (for example, if the label requires more than 32
      bits to encode it), or if the operator wishes to disambiguate
      GMPLS label types.

   -  Optionally specifying label stack actions in the MPLS LSR MIB
      module.

   -  Optionally specifying segment traffic parameters in the MPLS LSR
      MIB module.

4.1 MIB Modules

   There are two MIB modules defined in this document.

   The GMPLS LSR MIB module contains tables that extend tables defined
   in the MPLS LSR MIB module. This MIB module is used in conjunction
   with the MPLS LSR MIB module in systems that support GMPLS.

   The GMPLS Label MIB module contains objects for managing GMPLS labels
   when they cannot be represented using the textual conventions of the
   MPLS TC MIB module, or when more detailed access to the sub-fields of
   the labels is required.

4.1.1 Summary of the GMPLS LSR MIB Module

   The MIB tables in this MIB module are as follows.

   -  The interface configuration table (gmplsInterfaceTable), which
      extends mplsInterfaceTable to enable the GMPLS protocol on
      MPLS-capable interfaces.

   -  The in-segment (gmplsInSegmentTable) and out-segment
      (gmplsOutSegmentTable) tables extend mplsInSegmentTable and
      mplsOutSegmentTable to configuring GMPLS-specific parameters for
      LSP segments at an LSR.

   These tables are described in the subsequent sections.




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4.1.2 Summary of the GMPLS Label MIB Module

   There is one MIB table in this MIB module as follows.

   -  The gmplsLabelTable allows Generalized
      Labels to be defined and managed in a central location.
      Generalized Labels can be of variable length and have distinct
      bit-by-bit interpretations according to the use that is made of
      them.

   These tables are described in the subsequent sections.

5. Bidirectional LSPs

   This MIB module supports bidirectional LSPs as required for GMPLS.
   A single value of mplsXCIndex is shared by all of the segments for
   the entire bidirectional LSP. This facilitates a simple reference
   from [RFC3812] and [GMPLSTEMIB], and makes fate-sharing more obvious.

   It is, however, important that the direction of segments is
   understood to avoid connecting all in-segments to all out-segments.
   This is achieved by an object in each segment that indicates the
   direction of the segment with respect to data flow.

   A segment that is marked as 'forward' carries data from the 'head' of
   the LSP to the 'tail'. A segment marked as 'reverse' carries data in
   the reverse direction.

   Where an LSP is signaled using a conventional signaling protocol, the
   'head' of the LSP is the source of the signaling (also known as the
   ingress) and the 'tail' is the destination (also known as the
   egress). For manually configured LSPs an arbitrary decision must be
   made about which segments are 'forward' and which 'reverse'. For
   consistency this decision should be made across all LSRs that
   participate in the LSP by assigning 'head' and 'tail' ends to the
   LSP.

6. Example of LSP Setup

   In this section we provide a brief example of using the MIB objects
   described in sections 7 and 8 to set up an LSP. While this example is
   not meant to illustrate every nuance of the MIB, it is intended as an
   aid to understanding some of the key concepts. It is meant to be read
   after going through the MIB itself. A prerequisite is an
   understanding of [RFC3813].

   Suppose that one would like to manually create a best-effort,
   bi-directional LSP. Assume that, in the forward direction, the LSP
   enters the LSR via MPLS interface A with ifIndex 12 and exits the LSR
   via MPLS interface B with ifIndex 13. For the reverse direction, we
   assume the LSP enters via interface B and leaves via interface A

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   (i.e. the forward and reverse directions use the same bi-directional
   interfaces). Let us also assume that we do not wish to have a label
   stack beneath the top label on the outgoing labeled packets. The
   following example illustrates which rows and corresponding objects
   might be created to accomplish this.

   We must first create rows in the gmplsLabelTable corresponding to the
   labels required for each of the forward and reverse direction in- and
   out-segments. For the purpose of this example the forward and
   reverse labels on each interface will be the same, hence we need to
   create just two rows in the gmplsLabelTable - one for each interface.

   In gmplsLabelTable:
   {
     gmplsLabelInterface           = 12,
     gmplsLabelIndex               = 1,
     gmplsLabelSubindex            = 0,
     gmplsLabelType                = gmplsFreeformGeneralizedLabel(3),
     gmplsLabelFreeform            = 0x123456789ABCDEF0
     gmplsLabelRowStatus           = createAndGo(4)
   }

   In gmplsLabelTable:
   {
     gmplsLabelInterface           = 13,
     gmplsLabelIndex               = 1,
     gmplsLabelSubindex            = 0,
     gmplsLabelType                = gmplsFreeformGeneralizedLabel(3),
     gmplsLabelFreeform            = 0xFEDCBA9876543210
     gmplsLabelRowStatus           = createAndGo(4)
   }

   We must next create the appropriate in-segment and out-segment
   entries. These are done in [RFC3813] using the mplsInSegmentTable and
   mplsOutSegmentTable. Note that we use a row pointer to the two rows
   in the gmplsLableTable rather than specifying the labels explicitly
   in the in- and out-segment tables. Also note that the row status for
   each row is set to createAndWait(5) to allow corresponding entries in
   the gmplsInSegmentTable and gmplsOutSegmentTable to be created.

   For the forward direction.

   In mplsInSegmentTable:
   {
      mplsInSegmentIndex           = 0x00000015
      mplsInSegmentLabel           = 0, -- incoming label in label table
      mplsInSegmentNPop            = 1,
      mplsInSegmentInterface       = 12, -- incoming interface
      -- RowPointer MUST point to the first accesible column.
      mplsInSegmentTrafficParamPtr    = 0.0,
      mplsInSegmentLabelPtr           = gmplsLabelTable (12, 1, 0)

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      mplsInSegmentRowStatus          = createAndWait(5)
   }

   In mplsOutSegmentTable:
   {
      mplsOutSegmentIndex          = 0x00000012,
      mplsOutSegmentInterface      = 13, -- outgoing interface
      mplsOutSegmentPushTopLabel   = true(1),
      mplsOutSegmentTopLabel       = 0, -- outgoing label in label table

      -- RowPointer MUST point to the first accesible column.
      mplsOutSegmentTrafficParamPtr   = 0.0,
      mplsOutSegmentLabelPtr          = gmplsLabelTable (13, 1, 0)
      mplsOutSegmentRowStatus         = createAndWait(5)
   }

   For the reverse direction.

   In mplsInSegmentTable:
   {
      mplsInSegmentIndex           = 0x00000016

      mplsInSegmentLabel           = 0, -- incoming label in label table
      mplsInSegmentNPop            = 1,
      mplsInSegmentInterface       = 13, -- incoming interface

      -- RowPointer MUST point to the first accesible column.
      mplsInSegmentTrafficParamPtr    = 0.0,
      mplsInSegmentLabelPtr           = gmplsLabelTable (13, 1, 0)

      mplsInSegmentRowStatus          = createAndWait(5)
   }

   In mplsOutSegmentTable:
   {
      mplsOutSegmentIndex          = 0x00000013,
      mplsOutSegmentInterface      = 12, -- outgoing interface
      mplsOutSegmentPushTopLabel   = true(1),
      mplsOutSegmentTopLabel       = 0, -- outgoing label in label table

      -- RowPointer MUST point to the first accesible column.
      mplsOutSegmentTrafficParamPtr   = 0.0,
      mplsOutSegmentLabelPtr          = gmplsLabelTable (12, 1, 0)

      mplsOutSegmentRowStatus         = createAndWait(5)
   }






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   These table entries are extended by entries in gmplsInSegmentTable
   and gmplsOutSegmentTable. Note that the nature of the 'extends'
   relationship is that the entry in gmplsInSegmentTable has the same
   index values as the entry in mplsInSegmentTable. Similarly, the entry
   in gmplsOutSegmentTable has the same index values as the entry in
   mplsOutSegmentTable.

   First for the forward direction:

   In gmplsInSegmentTable(0x00000015)
   {
     gmplsInSegmentDirection          = forward (1)
   }

   In gmplsOutSegmentTable(0x00000012)
   {
     gmplsOutSegmentDirection         = forward (1)
   }

   Next for the reverse direction:

   In gmplsInSegmentTable(0x00000016)
   {
     gmplsInSegmentDirection          = reverse (2)
   }

   In gmplsOutSegmentTable(0x00000013)
   {
     gmplsOutSegmentDirection         = reverse (2)
   }

   Next, two cross-connect entries are created in the mplsXCTable of the
   MPLS LSR MIB, thereby associating the newly created segments
   together.

   In mplsXCTable:
   {
      mplsXCIndex                = 0x01,
      mplsXCInSegmentIndex       = 0x00000015,
      mplsXCOutSegmentIndex      = 0x00000012,
      mplsXCLspId                = 0x0102 -- unique ID
      mplsXCLabelStackIndex      = 0x00, -- only a single outgoing label
      mplsXCRowStatus            = createAndGo(4)
   }

   In mplsXCTable:
   {
      mplsXCIndex                = 0x02,
      mplsXCInSegmentIndex       = 0x00000016,
      mplsXCOutSegmentIndex      = 0x00000013,
      mplsXCLspId                = 0x0102 -- unique ID

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      mplsXCLabelStackIndex      = 0x00, -- only a single outgoing label
      mplsXCRowStatus            = createAndGo(4)
   }

   Finally, the in-segments and out-segments are activated.

   In mplsInSegmentTable(0x00000015):
   {
      mplsInSegmentRowStatus          = active(1)
   }
   In mplsInSegmentTable(0x00000016):
   {
      mplsInSegmentRowStatus          = active(1)
   }
   In mplsOutSegmentTable(0x00000012):
   {
      mplsOutSegmentRowStatus         = active(1)
   }
   In mplsOutSegmentTable(0x00000013):
   {
      mplsOutSegmentRowStatus         = active(1)
   }

7. GMPLS Label Switching Router MIB Definitions

   GMPLS-LSR-STD-MIB DEFINITIONS ::= BEGIN

   IMPORTS
     MODULE-IDENTITY, OBJECT-TYPE, Unsigned32, zeroDotZero
       FROM SNMPv2-SMI                                   -- RFC2578
     MODULE-COMPLIANCE, OBJECT-GROUP
       FROM SNMPv2-CONF                                  -- RFC2580
     RowPointer
       FROM SNMPv2-TC                                    -- RFC2579
     GmplsSegmentDirection
       FROM GMPLS-TC-STD-MIB                             -- GMPLSTCMIB
                      -- RFC-Editor please resolve the reference above
     mplsInterfaceIndex, mplsInSegmentIndex, mplsOutSegmentIndex
       FROM MPLS-LSR-STD-MIB                             -- RFC3813
     mplsStdMIB
       FROM MPLS-TC-STD-MIB                              -- RFC3811
   ;










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   gmplsLsrStdMIB MODULE-IDENTITY
     LAST-UPDATED
       "200505200001Z" -- 20 May 2005 00:00:01 GMT
     ORGANIZATION
       "Common Control And Measurement Plane (CCAMP) Working Group"
     CONTACT-INFO
       "       Thomas D. Nadeau
               Cisco Systems, Inc.
        Email: tnadeau@cisco.com

               Adrian Farrel
               Old Dog Consulting
        Email: adrian@olddog.co.uk
        Comments about this document should be emailed direct to the
        CCAMP working group mailing list at ccamp@ops.ietf.org"

     DESCRIPTION
       "Copyright (C) The Internet Society (2005). The initial version
        of this MIB module was published in RFC XXXX. For full legal
        notices see the RFC itself or see:
        http://www.ietf.org/copyrights/ianamib.html

        This MIB module contains managed object definitions for the
        Generalized Multiprotocol (GMPLS) Label Switching Router as
        defined in: Generalized Multi-Protocol Label Switching (GMPLS)
        Architecture, Mannie et al., RFC 3945, October 2004."

     -- Revision history.

     REVISION
       "200505200001Z" -- 20 May 2005 00:00:01 GMT
     DESCRIPTION
       -- RFC-editor please fill in XXXX and see IANA section
       "Initial version issued as part of RFC XXXX."
     ::= { mplsStdMIB XXX }

   -- Top level components of this MIB module.

   -- Notifications
   -- no notifications are currently defined.
   gmplsLsrNotifications OBJECT IDENTIFIER ::= { gmplsLsrStdMIB 0 }

   -- Tables, Scalars
   gmplsLsrObjects       OBJECT IDENTIFIER ::= { gmplsLsrStdMIB 1 }

   -- Conformance
   gmplsLsrConformance   OBJECT IDENTIFIER ::= { gmplsLsrStdMIB 2 }





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   -- GMPLS Interface Table.

   gmplsInterfaceTable OBJECT-TYPE
     SYNTAX        SEQUENCE OF GmplsInterfaceEntry
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "This table specifies per-interface GMPLS capability and
       associated information. It extends the information in
       mplsInterfaceTable."
     ::= { gmplsLsrObjects 1 }

   gmplsInterfaceEntry OBJECT-TYPE
     SYNTAX        GmplsInterfaceEntry
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "A conceptual row in this table is created automatically by an
        LSR for every interface capable of supporting GMPLS and which
        is configured to do so. A conceptual row in this table will
        exist if and only if a corresponding entry in mplsInterfaceTable
        exists, and a corresponding entry in ifTable exists with
        ifType = mpls(166). If the associated entry in ifTable is
        operationally disabled (thus removing the GMPLS capabilities on
        the interface) or the entry in mplsInterfaceTable is deleted,
        the corresponding entry in this table MUST be deleted shortly
        thereafter.

        The indexing is the same as that for mplsInterfaceTable. Thus,
        the entry with index 0 represents the per-platform label space
        and contains parameters that apply to all interfaces that
        participate in the per-platform label space."
     INDEX { mplsInterfaceIndex }
   ::= { gmplsInterfaceTable 1 }

   GmplsInterfaceEntry ::= SEQUENCE {
     gmplsInterfaceSignalingCaps      BITS,
     gmplsInterfaceRsvpHelloPeriod    Unsigned32
   }













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   gmplsInterfaceSignalingCaps OBJECT-TYPE
     SYNTAX  BITS {
       unknown (0),
       rsvpGmpls (1),
       crldpGmpls (2), -- note the use of CR-LDP is deprecated
       otherGmpls (3)
     }
     MAX-ACCESS   read-create
     STATUS       current
     DESCRIPTION
       "Defines the signaling capabilities on this interface. Multiple
        bits may legitimately be set at once. Setting no bits implies
        that GMPLS signaling cannot be performed on this interface and
        all LSPs must be manually provisioned or that this table entry
        is only present to supplement an entry in the mplsInterfaceTable
        by providing the information carried in other objects in this
        row."
     DEFVAL { { rsvpGmpls } }
   ::= { gmplsInterfaceEntry 1 }

   gmplsInterfaceRsvpHelloPeriod OBJECT-TYPE
     SYNTAX       Unsigned32
     UNITS        "milliseconds"
     MAX-ACCESS   read-create
     STATUS       current
     DESCRIPTION
       "Period, in milliseconds, between sending RSVP Hello messages on
        this interface. A value of 0 indicates that no Hello messages
        should be sent on this interface."
     REFERENCE
       "Generalized MPLS Signaling - RSVP-TE Extensions, Berger, L.
        (Editor), RFC 3473, January 2003."
     DEFVAL { 3000 }
   ::= { gmplsInterfaceEntry 2 }

   -- End of gmplsInterfaceTable

   -- In-segment table.

   gmplsInSegmentTable  OBJECT-TYPE
     SYNTAX        SEQUENCE OF GmplsInSegmentEntry
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "This table extends the mplsInSegmentTable to provide
        GMPLS-specific information about incoming segments to an LSR."
   ::= { gmplsLsrObjects 2 }





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   gmplsInSegmentEntry  OBJECT-TYPE
     SYNTAX        GmplsInSegmentEntry
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "An entry in this table extends the representation of an incoming
        segment represented by an entry in mplsInSegmentTable. An entry
        can be created by a network administrator or an SNMP agent, or a
        GMPLS signaling protocol.

        Note that the storage type for this entry SHOULD be inherited
        from the corresponding entry in the mplsInSegmentTable given by
        the value of the mplsInSegmentStorageType object."
     INDEX { mplsInSegmentIndex }
   ::= { gmplsInSegmentTable 1 }

   GmplsInSegmentEntry ::= SEQUENCE {
     gmplsInSegmentDirection        GmplsSegmentDirection,
     gmplsInSegmentExtraParamsPtr   RowPointer
   }

   gmplsInSegmentDirection OBJECT-TYPE
     SYNTAX        GmplsSegmentDirection
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "This object indicates the direction of data flow on this
        segment. This object cannot be modified if
        mplsInSegmentRowStatus for the associated entry in the
        mplsInSegmentTable is active(1)."
     DEFVAL        { forward }
   ::= { gmplsInSegmentEntry 1 }

   gmplsInSegmentExtraParamsPtr  OBJECT-TYPE
     SYNTAX       RowPointer
     MAX-ACCESS   read-create
     STATUS       current
     DESCRIPTION
       "Some Tunnels will run over transports that can usefully support
        technology-specific additional parameters (for example, SONET
        resource usage). Such can be supplied from an external table and
        referenced from here. A value of zeroDotzero in this attribute
        indicates that there is no such additional information."
     DEFVAL      { zeroDotZero }
     ::= { gmplsInSegmentEntry 2 }

   -- End of gmplsInSegmentTable





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   -- Out-segment table.

   gmplsOutSegmentTable  OBJECT-TYPE
     SYNTAX        SEQUENCE OF GmplsOutSegmentEntry
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "This table extends the mplsOutSegmentTable to provide
        GMPLS-specific information about outgoing segments from an LSR."
   ::= { gmplsLsrObjects 3 }

   gmplsOutSegmentEntry  OBJECT-TYPE
     SYNTAX        GmplsOutSegmentEntry
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "An entry in this table extends the representation of an outgoing
        segment represented by an entry in mplsOutSegmentTable. An entry
        can be created by a network administrator or an SNMP agent, or a
        GMPLS signaling protocol.

        Note that the storage type for this entry SHOULD be inherited
        from the corresponding entry in the mplsOutSegmentTable given by
        the value of the mplsOutSegmentStorageType object."
     INDEX  { mplsOutSegmentIndex }
   ::= { gmplsOutSegmentTable 1 }

   GmplsOutSegmentEntry ::= SEQUENCE {
     gmplsOutSegmentDirection       GmplsSegmentDirection,
     gmplsOutSegmentTTLDecrement    Unsigned32,
     gmplsOutSegmentExtraParamsPtr  RowPointer
   }

   gmplsOutSegmentDirection OBJECT-TYPE
     SYNTAX        GmplsSegmentDirection
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "This object indicates the direction of data flow on this
        segment. This object cannot be modified if
        mplsOutSegmentRowStatus for the associated entry in the
        mplsOutSegmentTable is active(1)."
     DEFVAL  { forward }
   ::= { gmplsOutSegmentEntry 1 }








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   gmplsOutSegmentTTLDecrement OBJECT-TYPE
     SYNTAX        Unsigned32 (0..255)
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "This object indicates the amount by which to decrement the TTL
        of any payload packets forwarded on this segment if per-hop
        decrementing is being done.

        A value of zero indicates that no decrement should be made or
        that per-hop decrementing is not in force.

        See the gmplsTunnelTTLDecrement object in the gmplsTunnelTable
        of [GMPLSTEMIB] for a value by which to decrement the TTL for
        the whole of a tunnel.

        This object cannot be modified if mplsOutSegmentRowStatus for
        the associated entry in the mplsOutSegmentTable is active(1)."
     REFERENCE
       "Time To Live (TTL) Processing in Multi-Protocol Label Switching
        (MPLS) Networks, Agarwal, P., Akyol, B., RFC 3443, January 2003"
     DEFVAL  { 0 }
   ::= { gmplsOutSegmentEntry 2 }

   gmplsOutSegmentExtraParamsPtr  OBJECT-TYPE
     SYNTAX       RowPointer
     MAX-ACCESS   read-create
     STATUS       current
     DESCRIPTION
       "Some Tunnels will run over transports that can usefully support
        technology-specific additional parameters (for example, SONET
        resource usage). Such can be supplied from an external table and
        referenced from here.

        A value of zeroDotzero in this attribute indicates that there is
        no such additional information."
     DEFVAL      { zeroDotZero }
     ::= { gmplsOutSegmentEntry 3 }

   -- End of gmplsOutSegmentTable

   -- Module compliance.

   gmplsLsrGroups
     OBJECT IDENTIFIER ::= { gmplsLsrConformance 1 }

   gmplsLsrCompliances
     OBJECT IDENTIFIER ::= { gmplsLsrConformance 2 }




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   -- Compliance requirement for fully compliant implementations.

   gmplsLsrModuleFullCompliance MODULE-COMPLIANCE
     STATUS current
     DESCRIPTION
       "Compliance statement for agents that provide full support for
        GMPLS-LSR-STD-MIB."

     MODULE IF-MIB -- The Interfaces Group MIB, RFC 2863.

     MANDATORY-GROUPS {
       ifGeneralInformationGroup,
       ifCounterDiscontinuityGroup
     }

     MODULE MPLS-LSR-STD-MIB -- The MPLS LSR MIB

     MANDATORY-GROUPS {
       mplsInterfaceGroup,
       mplsInSegmentGroup,
       mplsOutSegmentGroup,
       mplsXCGroup,
       mplsPerfGroup,
       mplsLsrNotificationGroup
     }

     MODULE -- this module

     MANDATORY-GROUPS    {
       gmplsInterfaceGroup,
       gmplsInSegmentGroup,
       gmplsOutSegmentGroup
     }

     -- gmplsInSegmentTable

     OBJECT      gmplsInSegmentDirection
     SYNTAX      GmplsSegmentDirection
     MIN-ACCESS  read-write
     DESCRIPTION
       "Only forward(1) needs to be supported by implementations that
        only support unidirectional LSPs."

     -- gmplsOutSegmentTable

     OBJECT      gmplsOutSegmentDirection
     SYNTAX      GmplsSegmentDirection
     MIN-ACCESS  read-write
     DESCRIPTION
       "Only forward(1) needs to be supported by implementations that
        only support unidirectional LSPs."

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     OBJECT      gmplsOutSegmentTTLDecrement
     SYNTAX      Unsigned32 (0..255)
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

   ::= { gmplsLsrCompliances 1 }

   -- Compliance requirement for implementations that provide read-only
   -- access.

   gmplsLsrModuleReadOnlyCompliance MODULE-COMPLIANCE
     STATUS current
     DESCRIPTION
       "Compliance requirement for implementations that only provide
        read-only support for GMPLS-LSR-STD-MIB. Such devices can then
        be monitored but cannot be configured using this MIB modules."

     MODULE IF-MIB -- The interfaces Group MIB, RFC 2863

     MANDATORY-GROUPS {
       ifGeneralInformationGroup,
       ifCounterDiscontinuityGroup
     }

     MODULE MPLS-LSR-STD-MIB

     MANDATORY-GROUPS {
       mplsInterfaceGroup,
       mplsInSegmentGroup,
       mplsOutSegmentGroup,
       mplsXCGroup,
       mplsPerfGroup
     }

     MODULE -- this module

     MANDATORY-GROUPS {
       gmplsInterfaceGroup,
       gmplsInSegmentGroup,
       gmplsOutSegmentGroup
     }










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     -- gmplsInterfaceGroup

     OBJECT      gmplsInterfaceSignalingCaps
     SYNTAX  BITS {
       unknown (0),
       rsvpGmpls (1),
       crldpGmpls (2),
       otherGmpls (3)
     }
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsInterfaceRsvpHelloPeriod
     SYNTAX      Unsigned32
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     -- gmplsInSegmentTable

     OBJECT      gmplsInSegmentDirection
     SYNTAX      GmplsSegmentDirection
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required. Only forward(1) needs to be
        supported by implementations that only support unidirectional
        LSPs."

     OBJECT      gmplsInSegmentExtraParamsPtr
     SYNTAX      RowPointer
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     -- gmplsOutSegmentTable

     OBJECT      gmplsOutSegmentDirection
     SYNTAX      GmplsSegmentDirection
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required. Only forward(1) needs to be
        supported by implementations that only support unidirectional
        LSPs."

     OBJECT      gmplsOutSegmentTTLDecrement
     SYNTAX      Unsigned32 (0..255)
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."


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     OBJECT      gmplsOutSegmentExtraParamsPtr
     SYNTAX      RowPointer
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

   ::= { gmplsLsrCompliances 2 }

   -- Units of conformance.

   gmplsInterfaceGroup OBJECT-GROUP
     OBJECTS {
       gmplsInterfaceSignalingCaps,
       gmplsInterfaceRsvpHelloPeriod
     }
     STATUS  current
     DESCRIPTION
       "Collection of objects needed for GMPLS interface configuration
        and performance information."
   ::= { gmplsLsrGroups 1 }

   gmplsInSegmentGroup  OBJECT-GROUP
     OBJECTS {
       gmplsInSegmentDirection,
       gmplsInSegmentExtraParamsPtr
     }
     STATUS  current
     DESCRIPTION
       "Collection of objects needed to implement a GMPLS
        in-segment."
   ::= { gmplsLsrGroups 2 }

   gmplsOutSegmentGroup  OBJECT-GROUP
     OBJECTS {
       gmplsOutSegmentDirection,
       gmplsOutSegmentTTLDecrement,
       gmplsOutSegmentExtraParamsPtr
     }
     STATUS  current
     DESCRIPTION
       "Collection of objects needed to implement a GMPLS out-segment."
   ::= { gmplsLsrGroups 3 }
   END









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8. GMPLS Label MIB Definitions

   GMPLS-LABEL-STD-MIB DEFINITIONS ::= BEGIN

   IMPORTS
     MODULE-IDENTITY, OBJECT-TYPE, Unsigned32,
     Integer32
       FROM SNMPv2-SMI                                   -- RFC2578
     MODULE-COMPLIANCE, OBJECT-GROUP
       FROM SNMPv2-CONF                                  -- RFC2580
     RowStatus, StorageType
       FROM SNMPv2-TC                                    -- RFC2579
     InterfaceIndexOrZero
       FROM IF-MIB                                       -- RFC2863
     IndexIntegerNextFree
       FROM DIFFSERV-MIB                                 -- RFC3289
     MplsLabel
       FROM MPLS-TC-STD-MIB                              -- RFC3811
     GmplsGeneralizedLabelTypes, GmplsFreeformLabel
       FROM GMPLS-TC-STD-MIB                             -- GMPLSTCMIB
                      -- RFC-Editor please resolve the reference above
     mplsStdMIB
       FROM MPLS-TC-STD-MIB                              -- RFC3811
   ;

   gmplsLabelStdMIB MODULE-IDENTITY
     LAST-UPDATED
       "200505200001Z" -- 20 May 2005 00:00:01 GMT
     ORGANIZATION
       "Common Control And Measurement Plane (CCAMP) Working Group"
     CONTACT-INFO
       "       Thomas D. Nadeau
               Cisco Systems, Inc.
        Email: tnadeau@cisco.com

               Adrian Farrel
               Old Dog Consulting
        Email: adrian@olddog.co.uk

        Comments about this document should be emailed direct to the
        CCAMP working group mailing list at ccamp@ops.ietf.org"

     DESCRIPTION
       "Copyright (C) The Internet Society (2005). The initial version
        of this MIB module was published in RFC YYYY. For full legal
        notices see the RFC itself or see:
        http://www.ietf.org/copyrights/ianamib.html

        This MIB module contains managed object definitions for labels
        within GMPLS systems as defined in:


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        Generalized Multi-Protocol Label Switching (GMPLS) Signaling
        Functional Description, Berger, L. (Editor), RFC 3471,
        January 2003."

     -- Revision history.
     REVISION
       "200505200001Z" -- 20 May 2005 00:00:01 GMT
     DESCRIPTION
       -- RFC-editor please fill in YYYY and see IANA section
       "Initial version issued as part of RFC YYYY."
     ::= { mplsStdMIB YYY }

   -- Top level components of this MIB module.

   -- Notifications
   -- no notifications are currently defined.
   gmplsLabelNotifications  OBJECT IDENTIFIER ::= { gmplsLabelStdMIB 0 }

   -- Tables, Scalars
   gmplsLabelObjects        OBJECT IDENTIFIER ::= { gmplsLabelStdMIB 1 }

   -- Conformance
   gmplsLabelConformance    OBJECT IDENTIFIER ::= { gmplsLabelStdMIB 2 }

   -- GMPLS Label Table.

   gmplsLabelIndexNext OBJECT-TYPE
     SYNTAX        IndexIntegerNextFree
     MAX-ACCESS    read-only
     STATUS        current
     DESCRIPTION
         "This object contains an unused value for gmplsLabelIndex,
          or a zero to indicate that no unused value exists or is
          available.
          A management application wishing to create a row in the
          gmplsLabelTable may read this object and then attempt to
          create a row in the table. If row creation fails (because
          another application has already created a row with the
          supplied index) the management application should read this
          object again to get a new index value.

          When a row is created in the gmplsLabelTable with the
          gmplsLabelIndex value held by this object, an implementation
          MUST change the value in this object."
     ::= { gmplsLabelObjects 1 }







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   gmplsLabelTable OBJECT-TYPE
     SYNTAX        SEQUENCE OF GmplsLabelEntry
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "Table of GMPLS Labels. This table allows the representation
        of the more complex label forms required for GMPLS which cannot
        be held within the textual convention MplsLabel. That is labels
        that cannot be encoded within 32 bits. It is, nevertheless also
        capable of holding 32 bit labels or regular MPLS labels if
        desired.

        Each entry in this table represents an individual GMPLS label
        value. Labels in the tables in other MIBs are referred to using
        row pointer into this table. The indexing of this table provides
        for arbitrary indexing and also for concatenation of labels."
   ::= { gmplsLabelObjects 2 }

   gmplsLabelEntry OBJECT-TYPE
     SYNTAX        GmplsLabelEntry
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "An entry in this table represents a single label value. There
        are three indexes into the table.
        -  The interface index may be helpful to distinguish which
           labels are in use on which interfaces or to handle cases
           where there are a very large number of labels in use in the
           system. When label representation is desired to apply to the
           whole system or when it is not important to distinguish
           labels by their interfaces, this index MAY be set to zero.

        -  The label index provides a way of identifying the label.
        -  The label sub-index is only used for concatenated labels. It
           identifies each component label. When non-concatenated labels
           are used, this index SHOULD be set to zero.
        A storage type object is supplied to control the storage type
        for each entry, but implementations should note that the storage
        type of conceptual rows in other tables that include row
        pointers to an entry in this table SHOULD dictate the storage
        type of the rows in this table where the row in the other table
        is more persistent."
     INDEX {
       gmplsLabelInterface,
       gmplsLabelIndex,
       gmplsLabelSubindex }
   ::= { gmplsLabelTable 1 }





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   GmplsLabelEntry ::= SEQUENCE {
     gmplsLabelInterface           InterfaceIndexOrZero,
     gmplsLabelIndex               Unsigned32,
     gmplsLabelSubindex            Unsigned32,
     gmplsLabelType                GmplsGeneralizedLabelTypes,
     gmplsLabelMplsLabel           MplsLabel,
     gmplsLabelPortWavelength      Unsigned32,
     gmplsLabelFreeform            GmplsFreeformLabel,
     gmplsLabelSonetSdhSignalIndex Integer32,
     gmplsLabelSdhVc               Integer32,
     gmplsLabelSdhVcBranch         Integer32,
     gmplsLabelSonetSdhBranch      Integer32,
     gmplsLabelSonetSdhGroupBranch Integer32,
     gmplsLabelWavebandId          Unsigned32,
     gmplsLabelWavebandStart       Unsigned32,
     gmplsLabelWavebandEnd         Unsigned32,
     gmplsLabelRowStatus           RowStatus,
     gmplsLabelStorageType         StorageType
   }

   gmplsLabelInterface OBJECT-TYPE
     SYNTAX        InterfaceIndexOrZero
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "The interface on which this label is used. If the label has or
        could have applicability across the whole system, this object
        SHOULD be set to zero."
   ::= { gmplsLabelEntry 1 }

   gmplsLabelIndex OBJECT-TYPE
     SYNTAX        Unsigned32 (0..4294967295)
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "An arbitrary index into the table to identify a label.

        Note that implementations that are representing 32 bit labels
        within this table MAY choose to align this index with the value
        of the label, but should be aware of the implications of
        sparsely populated tables.

        A management application may read the gmplsLabelIndexNext
        object to find a suitable value for this object."
   ::= { gmplsLabelEntry 2 }







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   gmplsLabelSubindex OBJECT-TYPE
     SYNTAX        Unsigned32 (0..4294967295)
     MAX-ACCESS    not-accessible
     STATUS        current
     DESCRIPTION
       "In conjunction with gmplsLabelInterface and gmplsLabelIndex,
        this object uniquely identifies this row. This sub-index allows
        a single GMPLS label to be defined as a concatenation of labels.
        This is particularly useful in TDM.

        The ordering of sub-labels is strict with the sub-label with
        lowest gmplsLabelSubindex appearing first. Note that all
        sub-labels of a single GMPLS label must share the same
        gmplsLabelInterface and gmplsLabelIndex values. For labels that
        are not composed of concatenated sub-labels, this value SHOULD
        be set to zero."
   ::= { gmplsLabelEntry 3 }

   gmplsLabelType OBJECT-TYPE
     SYNTAX        GmplsGeneralizedLabelTypes
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "Identifies the type of this label. Note that this object does
        not determine whether MPLS or GMPLS signaling is in use: a value
        of gmplsMplsLabel (1) denotes that a 23 bit MPLS packet label is
        present, but does not describe whether this is signaled using
        MPLS or GMPLS.

        The value of this object helps determine which of the following
        objects are valid. This object cannot be modified if
        gmplsLabelRowStatus is active(1)."
      REFERENCE
        "Generalized Multi-Protocol Label Switching (GMPLS)
         Signaling Functional Description, Berger, L. (Editor),
         RFC 3471, January 2003."
   ::= { gmplsLabelEntry 4 }















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   gmplsLabelMplsLabel OBJECT-TYPE
     SYNTAX         MplsLabel
     MAX-ACCESS     read-create
     STATUS         current
     DESCRIPTION
       "The value of an MPLS label (that is a packet label) if this
        table is used to store it. This may be used in MPLS systems even
        though the label values can be adequately stored in the MPLS MIB
        modules. Further, in mixed MPLS and GMPLS systems it may be
        advantageous to store all labels in a single label table.
        Lastly, in GMPLS systems where packet labels are used (that is
        in systems that use GMPLS signaling and GMPLS labels for packet
        switching) it may be desirable to use this table.

        This object is only valid if gmplsLabelType is set
        to gmplsMplsLabel (1). This object cannot be modified if
        gmplsLabelRowStatus is active(1)."
     REFERENCE
       "MPLS Label Stack Encoding, Rosen, E. et al, RFC 3032,
        January 2001."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 6 }

   gmplsLabelPortWavelength OBJECT-TYPE
     SYNTAX        Unsigned32
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The value of a Port or Wavelength Label when carried as a
        Generalized Label. Only valid if gmplsLabelType is set to
        gmplsPortWavelengthLabel(2). This object cannot be modified if
        gmplsLabelRowStatus is active(1)."
     REFERENCE
       "Generalized Multi-Protocol Label Switching (GMPLS)
        Signaling Functional Description, Berger, L. (Editor),
        RFC 3471, January 2003."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 7 }

   gmplsLabelFreeform OBJECT-TYPE
     SYNTAX        GmplsFreeformLabel
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The value of a freeform Generalized Label that does not conform
        to one of the standardized label encoding or that an
        implementation chooses to represent as an octet string without
        further decoding. Only valid if gmplsLabelType is set to
        gmplsFreeformGeneralizedLabel(3). This object cannot be modified
        if gmplsLabelRowStatus is active(1)."
   ::= { gmplsLabelEntry 8 }

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   gmplsLabelSonetSdhSignalIndex OBJECT-TYPE
     SYNTAX        Integer32 (0..4095)
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The Signal Index value (S) of a SONET or SDH Generalized Label.
        Zero indicates that this field is not significant. Only valid if
        gmplsLabelType is set to gmplsSonetLabel(4) or gmplsSdhLabel(5).
        This object cannot be modified if gmplsLabelRowStatus is
        active(1)."
     REFERENCE
       "Generalized Multi-Protocol Label Switching Extensions
        for SONET and SDH Control, Mannie, E., Papadimitriou, D.
        (Editors), draft-ietf-ccamp-gmpls-sonet-sdh, work in progress."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 9 }

   gmplsLabelSdhVc OBJECT-TYPE
     SYNTAX        Integer32 (0..15)
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The VC Indicator (U) of an SDH Generalized Label. Zero indicates
        that this field is non-significant.
        Only valid if gmplsLabelType is set to gmplsSdhLabel(5).
        This object cannot be modified if gmplsLabelRowStatus is
        active(1)."
     REFERENCE
       "Generalized Multi-Protocol Label Switching Extensions
        for SONET and SDH Control, Mannie, E., Papadimitriou, D.
        (Editors), draft-ietf-ccamp-gmpls-sonet-sdh, work in progress."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 10 }

   gmplsLabelSdhVcBranch OBJECT-TYPE
     SYNTAX        Integer32 (0..15)
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The VC Branch Indicator (K) of an SDH Generalized Label. Zero
        indicates that this field is non-significant.
        Only valid if gmplsLabelType is set to gmplsSdhLabel(5). This
        object cannot be modified if gmplsLabelRowStatus is active(1)."
     REFERENCE
       "Generalized Multi-Protocol Label Switching Extensions
        for SONET and SDH Control, Mannie, E., Papadimitriou, D.
        (Editors), draft-ietf-ccamp-gmpls-sonet-sdh, work in progress."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 11 }



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   gmplsLabelSonetSdhBranch OBJECT-TYPE
     SYNTAX        Integer32 (0..15)
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The Branch Indicator (L) of a SONET or SDH Generalized Label.
        Zero indicates that this field is non-significant.
        Only valid gmplsLabelType is set to gmplsSonetLabel(4) or
        gmplsSdhLabel(5). This object cannot be modified if
        gmplsLabelRowStatus is active(1)."
     REFERENCE
       "Generalized Multi-Protocol Label Switching Extensions
        for SONET and SDH Control, Mannie, E., Papadimitriou, D.
        (Editors), draft-ietf-ccamp-gmpls-sonet-sdh, work in progress."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 12 }

   gmplsLabelSonetSdhGroupBranch OBJECT-TYPE
     SYNTAX        Integer32 (0..15)
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The Group Branch Indicator (M) of a SONET or SDH Generalized
        Label.
        Zero indicates that this field is non-significant.
        Only valid if gmplsLabelType is set to gmplsSonetLabel(4) or
        gmplsSdhLabel(5). This object cannot be modified if
        gmplsLabelRowStatus is active(1)."
     REFERENCE
       "Generalized Multi-Protocol Label Switching Extensions
        for SONET and SDH Control, Mannie, E., Papadimitriou, D.
        (Editors), draft-ietf-ccamp-gmpls-sonet, work in progress."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 13 }

   gmplsLabelWavebandId OBJECT-TYPE
     SYNTAX        Unsigned32
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The waveband identifier component of a waveband label. Only
        valid if gmplsLabelType is set to gmplsWavebandLabel(6). This
        object cannot be modified if gmplsLabelRowStatus is active(1)."
     REFERENCE
       "Generalized Multi-Protocol Label Switching (GMPLS)
        Signaling Functional Description, Berger, L. (Editor),
        RFC 3471, January 2003."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 14 }



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   gmplsLabelWavebandStart OBJECT-TYPE
     SYNTAX        Unsigned32
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The starting label component of a waveband label.
        Only valid if gmplsLabelType is set to gmplsWavebandLabel(6).
        This object cannot be modified if
        gmplsLabelRowStatus is active(1)."
     REFERENCE
       "Generalized Multi-Protocol Label Switching (GMPLS)
        Signaling Functional Description, Berger, L. (Editor),
        RFC 3471, January 2003."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 15 }

   gmplsLabelWavebandEnd OBJECT-TYPE
     SYNTAX        Unsigned32
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "The end label component of a waveband label. Only valid if
        gmplsLabelType is set to gmplsWavebandLabel(6). This object
        cannot be modified if gmplsLabelRowStatus is active(1)."
     REFERENCE
       "Generalized Multi-Protocol Label Switching (GMPLS)
        Signaling Functional Description, Berger, L. (Editor),
        RFC 3471, January 2003."
     DEFVAL        { 0 }
   ::= { gmplsLabelEntry 16 }

   gmplsLabelRowStatus OBJECT-TYPE
     SYNTAX        RowStatus
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "This variable is used to create, modify, and/or delete a row in
        this table. When a row in this table has a row in the active(1)
        state, no objects in this row can be modified except the
        gmplsLabelRowStatus and gmplsLabelStorageType."
   ::= { gmplsLabelEntry 17 }











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   gmplsLabelStorageType OBJECT-TYPE
     SYNTAX        StorageType
     MAX-ACCESS    read-create
     STATUS        current
     DESCRIPTION
       "This variable indicates the storage type for this object. The
        agent MUST ensure that this object's value remains consistent
        with the storage type of any rows in other tables that contain
        pointers to this row. In particular, the storage type of this
        row must be at least as permanent as that of any row that point
        to it.

        Conceptual rows having the value 'permanent' need not
        allow write-access to any columnar objects in the row."
     REFERENCE
       "See RFC2579."
     DEFVAL { volatile }
   ::= { gmplsLabelEntry 18 }

   -- End of GMPLS Label Table

   -- Module compliance.

   gmplsLabelGroups
     OBJECT IDENTIFIER ::= { gmplsLabelConformance 1 }

   gmplsLabelCompliances
     OBJECT IDENTIFIER ::= { gmplsLabelConformance 2 }

   gmplsLabelModuleROCompliance MODULE-COMPLIANCE
     STATUS current
     DESCRIPTION
            "Compliance requirement for implementations that only
             provide read-only support for GMPLS-LABEL-STD-MIB. Such
             devices can then be monitored but cannot be configured
             using this MIB modules."

     MODULE -- this module

     -- The mandatory groups have to be implemented by LSRs claiming
     -- support for this MIB module. This MIB module is, however, not
     -- mandatory for a working implementation of a GMPLS LSR with full
     -- MIB support if the GMPLS labels in use can be represented within
     -- a 32 bit quantity.

     MANDATORY-GROUPS {
       gmplsLabelTableGroup
     }




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     -- Units of conformance.

     GROUP gmplsLabelTableGroup
     DESCRIPTION
       "This group is mandatory for devices which support the
        gmplsLabelTable."

     GROUP gmplsLabelPacketGroup
     DESCRIPTION
       "This group extends gmplsLabelTableGroup for implementations that
        support packet labels."

     GROUP gmplsLabelPortWavelengthGroup
     DESCRIPTION
       "This group extends gmplsLabelTableGroup for implementations that
        support port and wavelength labels."

     GROUP gmplsLabelFreeformGroup
     DESCRIPTION
       "This group extends gmplsLabelTableGroup for implementations that
        support freeform labels."

     GROUP gmplsLabelSonetSdhGroup
     DESCRIPTION
       "This group extends gmplsLabelTableGroup for implementations that
        support SONET or SDH labels."

     GROUP gmplsLabelWavebandGroup
     DESCRIPTION
       "This group extends gmplsLabelTableGroup for implementations that
        support Waveband labels."

     -- gmplsLabelTable

     OBJECT      gmplsLabelType
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelMplsLabel
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelPortWavelength
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."




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     OBJECT      gmplsLabelFreeform
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelSonetSdhSignalIndex
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelSdhVc
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelSdhVcBranch
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelSonetSdhBranch
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelSonetSdhGroupBranch
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelWavebandId
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelWavebandStart
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT      gmplsLabelWavebandEnd
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

     OBJECT       gmplsLabelRowStatus
     SYNTAX       RowStatus {
       active(1),
       notInService(2)
     }


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     WRITE-SYNTAX RowStatus {
       active(1),
       notInService(2),
       createAndGo(4),
       destroy(6)
     }
     DESCRIPTION
       "Support for notInService, createAndWait and notReady is not
        required."

     OBJECT      gmplsLabelStorageType
     MIN-ACCESS  read-only
     DESCRIPTION
       "Write access is not required."

   ::= { gmplsLabelCompliances 1 }

   gmplsLabelModuleFullCompliance MODULE-COMPLIANCE
     STATUS current
     DESCRIPTION
       "Compliance statement for agents that support the complete GMPLS
        Label MIB module."

     MODULE -- this module

     -- The mandatory groups have to be implemented by GMPLS LSRs
     -- claiming support for this MIB module. This MIB module is,
     -- however, not mandatory for a working implementation of a GMPLS
     -- LSR with full MIB support if the GMPLS labels in use can be
     -- represented within a 32 bit quantity.

     MANDATORY-GROUPS {
       gmplsLabelTableGroup,
       gmplsLabelPacketGroup,
       gmplsLabelPortWavelengthGroup,
       gmplsLabelFreeformGroup,
       gmplsLabelSonetSdhGroup,
       gmplsLabelWavebandGroup
     }

     OBJECT       gmplsLabelRowStatus
     SYNTAX       RowStatus { active(1), notInService(2) }
     WRITE-SYNTAX RowStatus { active(1), notInService(2),
                              createAndGo(4), destroy(6)
                            }
     DESCRIPTION
       "Support for notInService, createAndWait and notReady is not
        required."

   ::= { gmplsLabelCompliances 2 }


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   -- Units of conformance.

   gmplsLabelTableGroup OBJECT-GROUP
     OBJECTS {
       gmplsLabelIndexNext,
       gmplsLabelType,
       gmplsLabelRowStatus,
       gmplsLabelStorageType
     }

     STATUS  current
     DESCRIPTION
       "Necessary, but not sufficient, set of objects to implement label
        table support. In addition, depending on the type of labels
        supported (for example, wavelength labels), the following other
        groups defined below are mandatory:
          gmplsLabelPacketGroup and/or
          gmplsLabelPortWavelengthGroup and/or
          gmplsLabelFreeformGroup and/or
          gmplsLabelSonetSdhGroup."
   ::= { gmplsLabelGroups 1 }

   gmplsLabelPacketGroup OBJECT-GROUP
     OBJECTS {
       gmplsLabelMplsLabel
     }
     STATUS  current
     DESCRIPTION
       "Object needed to implement Packet (MPLS) labels."
   ::= { gmplsLabelGroups 2 }

   gmplsLabelPortWavelengthGroup OBJECT-GROUP
     OBJECTS {
       gmplsLabelPortWavelength
     }
     STATUS  current
     DESCRIPTION
       "Object needed to implement Port and Wavelength labels."
   ::= { gmplsLabelGroups 3 }

   gmplsLabelFreeformGroup OBJECT-GROUP
     OBJECTS {
       gmplsLabelFreeform
     }
     STATUS  current
     DESCRIPTION
       "Object needed to implement Freeform labels."
   ::= { gmplsLabelGroups 4 }




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   gmplsLabelSonetSdhGroup OBJECT-GROUP
     OBJECTS {
       gmplsLabelSonetSdhSignalIndex,
       gmplsLabelSdhVc,
       gmplsLabelSdhVcBranch,
       gmplsLabelSonetSdhBranch,
       gmplsLabelSonetSdhGroupBranch
     }
     STATUS  current
     DESCRIPTION
       "Object needed to implement SONET and SDH labels."
   ::= { gmplsLabelGroups 5 }

   gmplsLabelWavebandGroup OBJECT-GROUP
     OBJECTS {
       gmplsLabelWavebandId,
       gmplsLabelWavebandStart,
       gmplsLabelWavebandEnd
     }
     STATUS  current
     DESCRIPTION
       "Object needed to implement Waveband labels."
   ::= { gmplsLabelGroups 6 }
   END




























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9. Security Considerations

   It is clear that the MIB modules described in this document in
   association with the MPLS-LSR-STD-MIB are potentially useful for
   monitoring of GMPLS LSRs. These MIB modules can also be used for
   configuration of certain objects, and anything that can be configured
   can be incorrectly configured, with potentially disastrous results.

   There are a number of management objects defined in these MIB modules
   with a MAX-ACCESS clause of read-write and/or read-create. Such
   objects may be considered sensitive or vulnerable in some network
   environments. The support for SET operations in a non-secure
   environment without proper protection can have a negative effect on
   network operations. These are the tables and objects and their
   sensitivity/vulnerability:

   o  the gmplsInterfaceTable, gmplsInSegmentTable, gmplsOutSegmentTable
      and gmplsLabelTable collectively contain objects to provision
      GMPLS interfaces, LSPs and their associated parameters on a Label
      Switching Router (LSR). Unauthorized write access to objects in
      these tables, could result in disruption of traffic on the
      network. This is especially true if an LSP has already been
      established. The use of stronger mechanisms such as SNMPv3
      security should be considered where possible. Specifically, SNMPv3
      VACM and USM MUST be used with any SNMPv3 agent which implements
      these MIB modules.

   Some of the readable objects in these MIB modules "i.e., objects with
   a MAX-ACCESS other than not-accessible" may be considered sensitive
   or vulnerable in some network environments. It is thus important to
   control even GET and/or NOTIFY access to these objects and possibly
   to even encrypt the values of these objects when sending them over
   the network via SNMP. These are the tables and objects and their
   sensitivity/vulnerability:

   o  the gmplsInterfaceTable, gmplsInSegmentTable, gmplsOutSegmentTable
      and gmplsLabelTable collectively show the LSP network topology and
      its capabilities. If an Administrator does not want to reveal this
      information, then these tables should be considered
      sensitive/vulnerable.

   SNMP versions prior to SNMPv3 did not include adequate security. Even
   if the network itself is secure "for example by using IPSec", even
   then, there is no control as to who on the secure network is allowed
   to access and GET/SET "read/change/create/delete" the objects in
   these MIB modules. It is RECOMMENDED that implementers consider the
   security features as provided by the SNMPv3 framework "see [RFC3410],
   section 8", including full support for the SNMPv3 cryptographic
   mechanisms "for authentication and privacy".



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   Further, deployment of SNMP versions prior to SNMPv3 is NOT
   RECOMMENDED. Instead, it is RECOMMENDED to deploy SNMPv3 and to
   enable cryptographic security. It is then a customer/operator
   responsibility to ensure that the SNMP entity giving access to an
   instance of this MIB module, is properly configured to give access to
   the objects only to those principals "users" that have legitimate
   rights to indeed GET or SET "change/create/delete" them.

10. Acknowledgments

   This draft is the work of the five authors listed in the Authors'
   Addresses section.

   This document extends [RFC3813]. The authors would like to express
   their gratitude to all those who worked on that earlier MIB document.

   The authors would like to express their thanks to Dan Joyle for his
   careful review and comments on early versions of the Label Table.
   Special thanks to Joan Cucchiara and Len Nieman for their help with
   compilation issues. Tom Petch provided useful input in the final
   stages of review.

11. IANA Considerations

   MPLS related standards track MIB modules are rooted under the
   mplsStdMIB subtree.

   One of the MIB modules contained in this document extends tables
   contained in MPLS MIB modules.

   The two MIB modules contained in this document, like that in
   GMPLS-TC-STD-MIB [GMPLSTCMIB], should be placed in the mplsStdMIB
   subtree.

   New assignments in the mplsStdMIB subtree can only be made via a
   Standards Action as specified in [RFC2434].

11.1. IANA Considerations for GMPLS-LSR-STD-MIB

   The IANA is requested to assign { mplsStdMIB XXX } to the
   GMPLS-LSR-STD-MIB module specified in this document.

11.2. IANA Considerations for GMPLS-LABEL-STD-MIB

   The IANA is requested to assign { mplsStdMIB YYY } to the
   GMPLS-LABEL-STD-MIB module specified in this document.






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12. References

12.1. Normative References

   [RFC2119]         Bradner, S., "Key words for use in RFCs to Indicate
                     Requirement Levels", BCP 14, RFC 2119, March 1997.

   [RFC2578]         McCloghrie, K., Perkins, D., Schoenwaelder, J.,
                     Case, J., Rose, M., and S. Waldbusser, "Structure
                     of Management Information Version 2 (SMIv2)", STD
                     58, RFC 2578, April 1999.

   [RFC2579]         McCloghrie, K., Perkins, D., Schoenwaelder, J.,
                     Case, J., Rose, M., and S. Waldbusser, "Textual
                     Conventions for SMIv2", STD 58, RFC 2579, April
                     1999.

   [RFC2580]         McCloghrie, K., Perkins, D., Schoenwaelder, J.,
                     Case, J., Rose, M., and S. Waldbusser, "Conformance
                     Statements for SMIv2", STD 58, RFC 2580, April
                     1999.

   [RFC2863]         McCloghrie, K. and F. Kastenholtz, "The Interfaces
                     Group MIB", RFC 2863, June 2000.

   [RFC3289]         Baker, F., Chan, K., and A. Smith, "Management
                     Information Base for the Differentiated Services
                     Architecture", RFC 3289, May 2002.

   [RFC3443]         Agarwal, P. and Akyol, B., "Time To Live (TTL)
                     Processing in Multi-Protocol Label Switching
                     (MPLS) Networks", RFC 3443, January 2003.

   [RFC3811]         Nadeau, T. and J. Cucchiara, "Definition of Textual
                     Conventions and for Multiprotocol Label Switching
                     (MPLS) Management", RFC 3811, June 2004.

   [RFC3813]         Srinivasan, C., Viswanathan, A., and T. Nadeau,
                     "Multiprotocol Label Switching (MPLS) Label
                     Switching (LSR) Router Management Information Base
                     (MIB)", RFC 3813, June 2004.

   [RFC3945]         Mannie, E. (Editor), "Generalized Multiprotocol
                     Label Switching (GMPLS) Architecture", RFC 3945,
                     October 2004.

   [GMPLSTCMIB]      Nadeau, T., Farrel, A., (Editors) "Definitions of
                     Textual Conventions for Multiprotocol Label
                     Switching (MPLS) Management",
                     draft-ietf-ccamp-gmpls-tc-mib, work in progress.


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   [GMPLSTEMIB]      Nadeau, T., Farrel, A. (Editors) "Generalized
                     Multiprotocol Label Switching (GMPLS) Traffic
                     Engineering Management Information Base",
                     draft-ietf-ccamp-gmpls-te-mib, work in progress.

12.2. Informational References

   [RFC2026]         S. Bradner, "The Internet Standards Process --
                     Revision 3", RFC 2026, October 1996.

   [RFC2434]         Narten, T. and H. Alvestrand, "Guidelines for
                     Writing an IANA Considerations Section in RFCs",
                     BCP: 26, RFC 2434, October 1998.

   [RFC3031]         Rosen, E., Viswanathan, A., and R. Callon,
                     "Multiprotocol Label Switching Architecture", RFC
                     3031, January 2001.

   [RFC3032]         Rosen, E. et al, "MPLS Label Stack Encoding",
                     RFC 3032, January 2001.

   [RFC3209]         Awduche, D., Berger, L., Gan, D., Li, T.,
                     Srinivasan, V., and G. Swallow, "RSVP-TE:
                     Extensions to RSVP for LSP Tunnels", RFC 3209,
                     December 2001.

   [RFC3212]         Jamoussi, B., Aboul-Magd, O., Andersson, L.,
                     Ashwood-Smith, P., Hellstrand, F., Sundell, K.,
                     Callon, R., Dantu, R., Wu, L., Doolan, P., Worster,
                     T., Feldman, N., Fredette, A., Girish, M., Gray,
                     E., Halpern, J., Heinanen, J., Kilty, T., Malis,
                     A., and P. Vaananen, "Constraint-Based LSP Setup
                     using LDP", RFC 3212, December 2001."

   [RFC3410]         Case, J., Mundy, R., Partain, D. and B. Stewart,
                     "Introduction and Applicability Statements for
                     Internet-Standard Management Framework", RFC 3410,
                     December 2002.

   [RFC3411]         Harrington, D., Presuhn, R., and B. Wijnen, "An
                     Architecture for Describing Simple Network
                     Management Protocol (SNMP) Management Frameworks",
                     RFC 3411, December 2002.

   [RFC3413]         Levi, D., Meyer, P., Stewart, B., "SNMP
                     Applications", RFC 3413, December 2002.

   [RFC3471]         Berger, L. (Editor), "Generalized Multi-Protocol
                     Label Switching (GMPLS) Signaling Functional
                     Description", RFC 3471, January 2003.


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   [RFC3472]         Ashwood-Smith, P., Berger, L. (Editors),
                     "Generalized MPLS Signaling - CR-LDP Extensions",
                     RFC 3472, January 2003.

   [RFC3473]         Berger, L. (Editor), "Generalized MPLS Signaling -
                     RSVP-TE Extensions", RFC 3473 January 2003.

   [RFC3812]         Srinivasan, C., Viswanathan, A., and T. Nadeau,
                     "Multiprotocol Label Switching (MPLS) Traffic
                     Engineering (TE) Management Information Base
                     (MIB)", RFC 3812, June 2004.

   [GMPLSSonetSDH]   Mannie, E., Papadimitriou, D. (Editors),
                     "Generalized Multi-Protocol Label Switching
                     Extensions for SONET and SDH Control",
                     draft-ietf-ccamp-gmpls-sonet-sdh, work in progress.

13. Authors' Addresses

   Thomas D. Nadeau
   Cisco Systems, Inc.
   300 Apollo Drive
   Chelmsford, MA 01824
   Phone: +1-978-244-3051
   Email: tnadeau@cisco.com

   Cheenu Srinivasan
   Bloomberg L.P.
   731 Lexington Ave.
   New York, NY 10022
   Phone: +1-212-617-3682
   Email: cheenu@bloomberg.net

   Adrian Farrel
   Old Dog Consulting
   Phone: +44-(0)-1978-860944
   Email: adrian@olddog.co.uk

   Tim Hall
   Data Connection Ltd.
   100 Church Street
   Enfield, Middlesex, EN2 6BQ, UK
   Phone: +44 20 8366 1177
   Email: tim.hall@dataconnection.com

   Ed Harrison
   Data Connection Ltd.
   100 Church Street
   Enfield, Middlesex, EN2 6BQ, UK
   Phone: +44 20 8366 1177
   Email: ed.harrison@dataconnection.com

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14. Intellectual Property Considerations

   The IETF takes no position regarding the validity or scope of any
   Intellectual Property Rights or other rights that might be claimed to
   pertain to the implementation or use of the technology described in
   this document or the extent to which any license under such rights
   might or might not be available; nor does it represent that it has
   made any independent effort to identify any such rights. Information
   on the procedures with respect to rights in RFC documents can be
   found in BCP 78 and BCP 79.

   Copies of IPR disclosures made to the IETF Secretariat and any
   assurances of licenses to be made available, or the result of an
   attempt made to obtain a general license or permission for the use of
   such proprietary rights by implementers or users of this
   specification can be obtained from the IETF on-line IPR repository at
   http://www.ietf.org/ipr.

   The IETF invites any interested party to bring to its attention any
   copyrights, patents or patent applications, or other proprietary
   rights that may cover technology that may be required to implement
   this standard. Please address the information to the IETF at ietf-
   ipr@ietf.org.

15. Full Copyright Statement

   Copyright (C) The Internet Society (2005). This document is subject
   to the rights, licenses and restrictions contained in BCP 78, and
   except as set forth therein, the authors retain all their rights.

   This document and the information contained herein are provided on an
   "AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/SHE REPRESENTS
   OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY AND THE INTERNET
   ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS OR IMPLIED,
   INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE
   INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED
   WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.















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